Electrostatics

What can you do with a plasma ball? We get this question a lot! Check out these simple, cool demos using everyday lab items like fluorescent lamps, LEDs, neon gas tubes, and even your own body! You’ll be amazed at how easy and fun teaching and learning about electrostatics can be.

On October 8th, 2012, magician David Blaine performed a seemingly life-threatening stunt subjecting himself to a whopping one million volts of electricity while wearing a 20-pound chain metal suit. The public was shocked by the performance, a demonstration that seems to define the basic laws of science. Or did it?

It was 8:45 AM in Florence and I was waiting for one of the highlights of my 2012 Italian family vacation the chance to see the original creations for one of the greatest minds of the 17th century, Galileo. Take a tour of the Galileo Museum with me and see the classic Physics demos as they were in the 1600's.

Using high voltage equipment in the classroom can be exciting and educational for students, but most students AND teachers do not realize the real-life applications of such devices in their everyday lives. Although high voltage components are used in many of today’s electronic gadgets, being able to demonstrate the principles of this electrical phenomenon can be confusing for students and may present a safety issue for the teacher if not properly used.

The Fun Fly Stick is a toy that appears to magically “levitate” and repel objects after the teacher presses the button on the handle. What makes the Fun Fly Stick operate is a scientific principle of static electricity that Robert Van de Graaff utilized some 75 years ago. What Van de Graaff originally developed, was a device which produced very high voltages that were needed to accelerate particles to energies high enough to create new elements.

One of the first science toys I ever owned was a water rocket. Essentially a plastic container with fins, the rocket is prepared for flight by partially filling it with water and pressurized air. When released, the rocket’s contents exit a small hole at the base of the rocket in one direction, pushing the rocket ahead with amazing speed in the opposite direction. A case of action-reaction, pure and simple.

The electrical force is so pervasive that it is difficult to name many aspects of the physical world not affected by it. At the most fundamental level, the attractive electrical force between electrons and protons holds atoms together. On a bit larger scale, electrical interactions between atoms are responsible for the formation of molecules. On a much grander scale, a rapid discharge of atmospheric electricity manifests itself as a flash of lightning. All these phenomena are governed by the same basic principles.

Arbor Scientific is a leading provider of Physics and Physical Science teaching equipment tested and approved by educators recognized for their expertise. Arbor Scientific works with teachers at all levels to find the ‘Cool Stuff’ – unique demonstration and laboratory tools – and then provides lesson plans, supportive teaching guides and science teaching supplies to make each learning experience fun and effective.